WO2002083782A1 - Pneumatique et bande de roulement comportant comme agent de couplage un tetrasulfure de bis-alkoxysilane - Google Patents
Pneumatique et bande de roulement comportant comme agent de couplage un tetrasulfure de bis-alkoxysilane Download PDFInfo
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- WO2002083782A1 WO2002083782A1 PCT/EP2002/003774 EP0203774W WO02083782A1 WO 2002083782 A1 WO2002083782 A1 WO 2002083782A1 EP 0203774 W EP0203774 W EP 0203774W WO 02083782 A1 WO02083782 A1 WO 02083782A1
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- inorganic filler
- tire
- alkoxysilane
- chosen
- butadiene
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Classifications
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- C—CHEMISTRY; METALLURGY
- C08—ORGANIC MACROMOLECULAR COMPOUNDS; THEIR PREPARATION OR CHEMICAL WORKING-UP; COMPOSITIONS BASED THEREON
- C08K—Use of inorganic or non-macromolecular organic substances as compounding ingredients
- C08K5/00—Use of organic ingredients
- C08K5/54—Silicon-containing compounds
- C08K5/548—Silicon-containing compounds containing sulfur
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B60—VEHICLES IN GENERAL
- B60C—VEHICLE TYRES; TYRE INFLATION; TYRE CHANGING; CONNECTING VALVES TO INFLATABLE ELASTIC BODIES IN GENERAL; DEVICES OR ARRANGEMENTS RELATED TO TYRES
- B60C1/00—Tyres characterised by the chemical composition or the physical arrangement or mixture of the composition
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B60—VEHICLES IN GENERAL
- B60C—VEHICLE TYRES; TYRE INFLATION; TYRE CHANGING; CONNECTING VALVES TO INFLATABLE ELASTIC BODIES IN GENERAL; DEVICES OR ARRANGEMENTS RELATED TO TYRES
- B60C1/00—Tyres characterised by the chemical composition or the physical arrangement or mixture of the composition
- B60C1/0016—Compositions of the tread
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B60—VEHICLES IN GENERAL
- B60C—VEHICLE TYRES; TYRE INFLATION; TYRE CHANGING; CONNECTING VALVES TO INFLATABLE ELASTIC BODIES IN GENERAL; DEVICES OR ARRANGEMENTS RELATED TO TYRES
- B60C1/00—Tyres characterised by the chemical composition or the physical arrangement or mixture of the composition
- B60C1/0025—Compositions of the sidewalls
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B60—VEHICLES IN GENERAL
- B60C—VEHICLE TYRES; TYRE INFLATION; TYRE CHANGING; CONNECTING VALVES TO INFLATABLE ELASTIC BODIES IN GENERAL; DEVICES OR ARRANGEMENTS RELATED TO TYRES
- B60C15/00—Tyre beads, e.g. ply turn-up or overlap
- B60C15/06—Flipper strips, fillers, or chafing strips and reinforcing layers for the construction of the bead
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B60—VEHICLES IN GENERAL
- B60C—VEHICLE TYRES; TYRE INFLATION; TYRE CHANGING; CONNECTING VALVES TO INFLATABLE ELASTIC BODIES IN GENERAL; DEVICES OR ARRANGEMENTS RELATED TO TYRES
- B60C15/00—Tyre beads, e.g. ply turn-up or overlap
- B60C15/06—Flipper strips, fillers, or chafing strips and reinforcing layers for the construction of the bead
- B60C2015/0614—Flipper strips, fillers, or chafing strips and reinforcing layers for the construction of the bead characterised by features of the chafer or clinch portion, i.e. the part of the bead contacting the rim
Definitions
- the present invention relates to tires and tire treads incorporating diene elastomer compositions reinforced with a white or inorganic filler.
- carbon black exhibits such aptitudes, which is generally not the case for inorganic fillers. Indeed, for reasons of reciprocal affinities, the particles of inorganic charge have an unfortunate tendency, in the elastomeric matrix, to agglomerate between them. These interactions have the harmful consequence of limiting the dispersion of the filler and therefore the reinforcing properties to a level substantially lower than that which would theoretically be possible to achieve if all the bonds (inorganic filler / elastomer) capable of being created. during the mixing operation, were actually obtained; these interactions also tend to increase the raw consistency of. rubber compositions and therefore to make their implementation ("processability") more difficult than in the presence of carbon black.
- Tires or tire treads incorporating rubber compositions reinforced with reinforcing inorganic fillers of the siliceous type or aluminous have in particular been described in the patents or patent applications EP-A-501 227 or US-A-5 227 425, EP-A-735 088 or US-A-5 852 099, EP-A-810 258 or US-A-5,900,449, WO 99/02590, WO 00/05300, WO 00/05301, WO02 / 10269.
- a coupling agent also called a bonding agent, which has the function of ensuring the connection or bonding between the surface of the particles of inorganic filler and the elastomer, while facilitating the dispersion of this inorganic charge within the elastomeric matrix.
- coupling agent inorganic filler / elastomer
- organic filler / elastomer an agent capable of establishing a sufficient bond, of chemical and / or physical nature, between the inorganic filler and the diene elastomer ;
- a coupling agent at least bifunctional, has for example as simplified general formula "Y-A-X", in which:
- - Y represents a functional group ("Y" function) which is capable of binding physically and / or chemically to the inorganic charge, such a bond possibly being. established, for example, between a silicon atom of the coupling agent and the surface hydroxyl (OH) groups of the inorganic filler (for example surface silanols when it is silica);
- - X represents a ' functional group (function "X") capable of physically and / or chemically bonding to the diene elastomer, for example via a sulfur atom;
- A represents a divalent group making it possible to connect Y and X.
- Coupling agents should in particular not be confused with simple inorganic charge covering agents which, in known manner, may have the "Y” function active with respect to the inorganic charge but are devoid of the " X "active vis-à-vis the diene elastomer.
- Coupling agents in particular (silica / diene elastomer), have been described in a large number of documents, the best known being bifunctional organosilanes carrying alkoxyl functions (that is to say, by definition, "alkoxysilanes") as “Y” functions and, as “X” functions, functions capable of reacting with the diene elastomer such as for example sulfur functions (ie, containing sulfur).
- TESPT bis- (trialkoxylsilylpropyl) polysulphides, very particularly bis 3-triethoxysilylpropyl tetrasulphide
- the TESPT of formula [(C 2 H 5 O) Si (CH 2 ) 3 S] 2
- Si69 or X50S when it is supported at 50% by weight on carbon black
- Silquest Al 289 in both cases, in the form of a commercial mixture of polysulphides S x with an average value for x which is close to 4
- This TESPT polysulphurized alkoxysilane is considered today as the product providing, for tires or tire treads reinforced by a reinforcing inorganic filler such as silica, the best compromise in terms of safety in roasting, hysteresis and reinforcing power. It is "the title the reference coupling agent of the art for pneumatic silica filled low rolling resistance, sometimes referred to as” Green Tires “for energy savings offered (or” energy -saving Green Tires "). To be convinced of this, it is enough to consult the very numerous publications relating to these tires based on silica and TESPT.
- Elastomeric compositions based on a reinforcing inorganic filler such as silica and a polysulphurized alkoxysilane coupling agent such as TESPT have the known drawback of exhibiting very significantly slowed down vulcanization kinetics, as a general factor of two to three. , compared to conventional compositions loaded with carbon black. As is known, the longer baking times which result therefrom penalize the industrial use of tires or tire treads based on reinforcing inorganic fillers.
- a first subject of the invention relates to a tire incorporating an elastomeric composition
- an elastomeric composition comprising at least, as basic constituents, (i) a diene elastomer, (ii) a reinforcing inorganic filler and (iii) a bis-alkoxysilane tetrasulfide as coupling agent (inorganic filler / diene elastomer), this tire being characterized in that said alkoxysilane corresponds to formula (I):
- the symbols R 1 identical or different, each represent a monovalent hydrocarbon group chosen from alkyl, linear or branched, having from 1 to 4 carbon atoms and alkoxyalkyls, linear or branched, having from 2 to 8 atoms carbon;
- - x is a whole or fractional number between 3 and 5.
- the invention is most preferably implemented with a tetrasulfide of formula (III):
- the tires of the invention are particularly intended for equipping passenger vehicles, 4x4 vehicles (with 4-wheel drive), two wheels (in particular bicycles or motorcycles), vans, "Heavy vehicles” (that is to say metro , buses, road transport equipment such as trucks, tractors, trailers).
- Another subject of the invention is the treads of such tires, these treads being able to be used during the manufacture of new tires or advantageously for retreading used tires.
- a second object of the invention relates to a tire tread, incorporating an elastomeric composition based on at least one diene elastomer, a reinforcing inorganic filler and a bis-alkoxysilane tetrasulphide as coupling agent.
- this tread being characterized in that said alkoxysilane corresponds to the above formula (I).
- the treads of the invention have revealed a hitherto unequaled compromise in properties: reduced rolling resistance compared to the use of TESPT, synonymous with economy. of fuel, resistance to wear equal to, if not greater than, that offered by the reference coupling agent TESPT, synonymous with a mileage covered, equal if not greater, excellent grip properties, in particular on wet, snowy or icy conditions, typical of those likely to be provided by a reinforcing inorganic filler such as silica, finally, which is not the least, a cooking time very markedly reduced, typically by a factor of two or more, compared to TESPT.
- Reduced cooking times are particularly advantageous for treads intended for retreading, whether it is "cold” retreading (use of a precooked tread) or conventional "hot” retreading (use of 'a raw tread).
- a reduced cooking time in addition to reducing production costs, limits the overcooking (or postcooking) imposed on the rest of the casing (carcass) of the used tire (already vulcanized); thanks to the invention, with identical baking time, the treads can also be baked at a lower temperature, which is another means of preserving the carcass from the problem of overcooking mentioned above.
- the tires or treads according to the invention, with improved vulcanization kinetics, incorporating a composition based on a reinforcing inorganic filler vulcanizable with sulfur, can be prepared by a process comprising the following steps:
- thermomechanically mixing everything in one or more times, until reaching a maximum temperature between 110 ° C and 190 ° C; cool the assembly to a temperature below 100 ° C; then incorporate a vulcanization system; • mix everything up to a maximum temperature below 110 ° C; calendering or extruding the elastomeric composition thus obtained in the form of a tire tread or of a rubber profile incorporated as a semi-finished product in the tire,
- the invention also relates, per se, to sulfur-vulcanizable elastomeric compositions which can be used for the manufacture of tires or tire treads, exhibiting accelerated vulcanization kinetics, based on at least one diene elastomer, a reinforcing inorganic filler. and a bis-alkoxysilane tetrasulfide as coupling agent (inorganic filler / diene elastomer), these compositions being characterized in that said alkoxysilane corresponds to the above formula (I).
- compositions are capable of being prepared according to a process which constitutes another object of the invention; this process includes the following steps:
- a reinforcing inorganic filler a bis-alkoxysilane tetrasulfide as coupling agent (inorganic filler / diene elastomer), by thermomechanically kneading the whole, in one or more stages, until reaching a maximum temperature of between 110 ° C and 190 ° C; cool the assembly to a temperature below 100 ° C; then incorporate a vulcanization system; • mix everything up to a maximum temperature below 110 ° C,
- alkoxysilane corresponds to the above formula (I).
- the invention also relates to the use of a composition in accordance with the invention for the manufacture of finished articles or semi-finished products, as well as these finished articles and semi-finished products themselves, comprising a composition of rubber according to the invention, these articles or products being intended for any vehicle ground connection system automobiles, such as tires, internal safety supports for tires, wheels, rubber springs, elastomeric joints, other suspension and anti-vibration elements.
- the invention particularly relates to the use of a composition according to the invention for the manufacture of tires or semi-finished rubber products intended for these tires, these semi-finished articles being chosen in particular from the group consisting by the treads, the sub-layers intended for example to be placed under these treads, the crown reinforcement plies, the sides, the carcass reinforcement plies, the heels, the protectors, the chambers air and waterproof inner liners for tubeless tires.
- the average number x of sulfur atoms, per alkoxysilane molecule is calculated according to the following formula.
- Ws and Wsi are determined by the elemental analysis technique by X-ray fluorescence, while Wsel is determined by GPC (Gel Permeation Chromatography), as indicated below.
- the elemental X-ray fluorescence analysis technique is a global method for determining total sulfur and total silicon; it involves solubilization of the sample in DMF (dimethylformamide) and not mineralization of the sample.
- the apparatus used is a PHILIPS TW 2400 X-ray fluorescence spectrometer, equipped with a Rhodium tube.
- DMSO dimethyl sulfoxide
- solubilized in DMF is used as a standard for determining the sulfur (calibration range in S: from 0 to 3000 ppm).
- D4 octamethyltetrasiloxane solubilized in DMF is used as a standard (calibration range in Si: from 0 to 3000 ppm).
- the sample is dissolved in DMF for the measurement, at a rate of 0.5 g of sample per 40 g of DMF.
- the one-dimensional NMR analyzes of silicon-29 are carried out with a Bruker AMX 300 spectrometer and a selective 10 mm 2 Si probe operating with a silicon observation frequency at 59 MHz.
- the chemical shifts ( ⁇ ) are expressed in ppm, tetramethylsilane is used as an external reference for the chemical shifts 1H and 29 Si.
- the temperature is controlled by a variable temperature unit ( ⁇ 0.1 ° K).
- NMR spectra are performed at a temperature of 300 ° K.
- an accumulation sequence with decoupling of the "reverse gated" type of the proton WALTZ 16 is used.
- the angle of the silicon-29 pulse is 45 ° and the duration between two silicon pulses is fixed at 4.5 s.
- the free precession signal (FID) is obtained after 4096 accumulations.
- the spectral width is 10870 Hz and the number of points defining the free precession signal is equal to 32768.
- a simple acquisition sequence is used, with a pulse angle of 30 °, a duration between pulses of 4.6 s and 256 accumulations.
- the spectral width is 4500Hz and no mathematical processing is practiced.
- the observation frequency is 300 MHz.
- An accumulation sequence with proton decoupling (WALTZ 16) is used, with a pulse angle of 30 °, a duration between pulses of 3 s and 8192 accumulations.
- the spectral width is 20000Hz and the signal is processed by an exponential function before the Fourier transform.
- the observation frequency is 75 MHz.
- the deuterated solvent (CDCI 3 ) is used to compensate for any drifts in the magnetic field and makes it possible to calibrate the spectra in chemical displacement.
- the molar distribution of the polysulfides S x is obtained from the 13 C NMR spectrum, by exploiting the areas of. characteristic peaks of the CH 2 motifs linked to S 2 , S 3 , S 4 and S> 5 .
- An expansion (or enlargement) of the 13 C NMR spectrum, between 41.0 and 44.0 ppm is first made; this spectrum comprises at most (case where all the polysulphides S 2 to S 5 are present) three main peaks (resolved fine peaks) followed by a complex massif.
- the three consecutive main peaks corresponding respectively to S 3 , S 2 and S and situated in practice in the spectral range of approximately 41.8 ppm to 42.6 ppm (typically, first fine peak around 42 ppm; second fine peak around 42 , 3 ppm; third fine peak around 42.5 ppm) are integrated from valley to valley (II, 12 and 13 are the values of the corresponding integrals, respectively), as well as the complex massif, located in practice between 42.7 ppm and 43.7 ppm approximately (for example from 42.85 to 43.5 ppm approximately), corresponding to S> 5 (integral 14); then the distribution is calculated as follows:
- the rubber compositions are characterized before and after curing, as indicated below.
- the Mooney plasticity measurement is carried out according to the following principle: the composition in the cm (Le., Before baking) state is molded in a cylindrical enclosure heated to 100 ° C. After one minute of preheating, the rotor turns within the test tube at 2 revolutions / minute and the torque useful for maintaining this movement is measured after 4 minutes of rotation.
- the measurements are carried out at 130 ° C, in accordance with French standard NF T 43-005 (1991).
- the evolution of the consistometric index as a function of time makes it possible to determine the toasting time of the rubber compositions, assessed in accordance with the aforementioned standard by parameter T5 (in the case of a large rotor), expressed in minutes, and defined as being the time necessary to obtain an increase in the consistometric index (expressed in MU) of 5 units above the minimum value measured for this index.
- a processing of the traction records also makes it possible to plot the modulus curve as a function of the elongation (see attached figures 1 and 2), the module used here being the true secant module measured in first elongation, calculated by returning to the section real of the test piece and not in the initial section as previously for the nominal modules.
- the level of elastomer which is not extractable with toluene is measured, after swelling for 15 days of a sample of rubber composition (typically 300-350 mg) in this solvent (for example in 80-100 cm 3 of toluene), followed by a 24-hour drying step at 100 ° C, under vacuum, before weighing the rubber composition sample as well treaty.
- a sample of rubber composition typically 300-350 mg
- this solvent for example in 80-100 cm 3 of toluene
- the above swelling step is carried out at room temperature (about 20 ° C) and protected from light, and the solvent (toluene) is changed once, for example after the first five days swelling.
- the rate of "bound rubber” (% by weight), denoted “BR" is calculated in a known manner by difference between the initial weight and the final weight of the sample of rubber composition, after taking into account and elimination, in the calculation of the fraction of components insoluble by nature, other than the elastomer, present initially in the rubber composition.
- the dynamic properties are measured on a viscoanalyzer (Metravib VA4000), according to standard ASTM D 5992-96.
- the response of a sample of vulcanized composition (cylindrical specimen 4 mm thick and 400 mm 2 in section) is recorded, subjected to a sinusoidal stress in alternating simple shear, at the frequency of 10 Hz, at a temperature of 40 ° C.
- a sweep in deformation amplitude is carried out from 0.1 to 50% (outward cycle), then from 50% to 1% (return cycle); for the return cycle, the maximum value of the loss factor is recorded, noted tan ( ⁇ ) max .
- Hysteretic losses (denoted PH) are measured by rebound at 60 ° C on the 6th shock, and expressed in% according to the following relationship:
- the Shore A hardness of the compositions after curing is assessed in accordance with standard ASTM D 2240-86.
- Rolling resistance is measured on a steering wheel, according to ISO 87-67 (1992). A value greater than that of the control, arbitrarily set at 100, indicates an improved result, that is to say a lower rolling resistance.
- the tires are mounted on a motor vehicle equipped with an ABS braking system and the distance required to go from 100 km / h to 0 km / h is measured during brutal braking on dry ground (bituminous concrete). A value greater than that of the control, arbitrarily fixed at 100, indicates an improved result, that is to say a shorter braking distance.
- the tires are mounted on a motor vehicle equipped with an ABS braking system and the distance required to go from 50 km / h to 10 km / h is measured during brutal braking on watered ground (bituminous concrete).
- the professional driver of the vehicle assigns, on the other hand, an overall, subjective rating, of the road behavior of the vehicle - and therefore of the tires - on this watered hazy circuit; a score higher than that of the witness, arbitrarily set at 100, indicates improved overall behavior.
- Each tire tested is mounted on a wheel of suitable size and inflated to 2.2 bars. It is made to run at a constant speed of 80 km / h on an appropriate automatic machine ("ground-plane" type machine sold by the company MTS).
- the load denoted “Z” is varied, under a drift angle of 1 degree, and the stiffness or drift thrust denoted “D” (corrected for zero drift thrust) is measured in a known manner, by recording at using sensors the transverse force on the wheel as a function of this load Z.
- the drift thrust indicated in the tables is the slope at the origin of the curve D (Z). An increase in drift thrust is favorable to road behavior on dry ground.
- the tires and treads of the invention incorporate • rubber compositions based on at least each of the following constituents: (i) one (at least one) diene elastomer (component A defined below), (ii) one (at least one) inorganic filler as reinforcing filler (component B defined below), (iii) one (at least one) specific alkoxysilane (component C defined below) as coupling agent (filler inorganic / diene elastomer).
- composition based on
- a composition comprising the mixture and / or the in situ reaction product of the various constituents used, some of these base constituents being capable of, or intended to react between them, at least in part, during the various stages of manufacturing rubber compositions, tires or treads, in particular during their vulcanization.
- iene elastomer or rubber in known manner an elastomer derived at least in part (i.e., a homopolymer or a copolymer) from diene monomers (monomers carrying two carbon-carbon double bonds, conjugated or not).
- diene elastomer derived at least in part from conjugated diene monomers, having a rate of units or units of diene origin (conjugated dienes) which is greater than 15% (% in moles).
- diene elastomers such as butyl rubbers or copolymers of dienes and alpha-olefins of the EPDM type do not enter into the preceding definition and can be qualified in particular as "essentially saturated diene elastomers". "(rate of motifs of diene origin low or very low, always less than 15%).
- the expression “highly unsaturated” diene elastomer is understood in particular to mean a diene elastomer having a rate of units of diene origin (conjugated dienes) which is greater than 50%.
- iene elastomer more particularly capable of being used in tires, treads and compositions in accordance with the invention:
- 1,3-butadiene, 2-methyl-1,3-butadiene, 2,3-di (C 1 -C 6 -alkyl) -l, 3-butadienes such as, for example, are suitable.
- Suitable vinyl-aromatic compounds are, for example, styrene, ortho-, meta-, para-methylstyrene, the commercial "vinyl-toluene" mixture, para-tertiobutylstyrene, methoxystyrenes, chlorostyrenes, vinyl mesitylene, divinylbenzene. , vinylnaphthalene.
- the copolymers can contain between 99% and 20% by weight of diene units and between 1% and 80% o by weight of vinyl-aromatic imitates.
- the elastomers can have any microstructure which is a function of the polymerization conditions used, in particular the presence or absence of a modifying and / or randomizing agent and the quantities of modifying and / or randomizing agent used.
- the elastomers can for example be block, statistical, sequence, microsequenced, and be prepared in dispersion or in solution; they can be coupled and / or stars or functionalized with a coupling and / or star-forming or functionalizing agent.
- polybutadienes are suitable and in particular those having a content of -1,2 units between 4% and 80% or those having a cis-1,4 content greater than 80% o, polyisoprenes, butadiene copolymers -styrene and in particular those having a styrene content of between 5% and 50% by weight and more particularly between 20%) and 40%), a content of -1,2 bonds in the butadiene part of between 4% and 65 %, a content of trans-1,4 bonds of between 20% and 80%, butadiene-isoprene copolymers and in particular those having an isoprene content of between 5% and 90% by weight and a glass transition temperature (Tg , measured according to standard ASTM D3418-82) from -40 ° C to -80 ° C, isoprene-styrene copolymers and in particular those having a styrene content of between 5% and 50% by weight and a Tg
- butadiene-styrene-isoprene copolymers especially those having a styrene content of between 5% and 50% by weight and more particularly between 10%> and 40%, an isoprene content of between 15% and 60 are suitable.
- the diene elastomer is chosen from the group of highly unsaturated diene elastomers constituted by polybutadienes (“BR”), polyisoprenes (“IR”), natural rubber (“NR”), butadiene copolymers, isoprene copolymers and mixtures of these elastomers.
- BR polybutadienes
- IR polyisoprenes
- NR natural rubber
- butadiene copolymers butadiene copolymers
- isoprene copolymers and mixtures of these elastomers.
- Such copolymers are more preferably chosen from the group consisting of butadiene-styrene copolymers (“SBR”), isoprene-butadiene copolymers (“BIR”), isoprene-styrene copolymers (“SIR”) and isoprene-butadiene-styrene copolymers (“SBIR”).
- SBR butadiene-styrene copolymers
- BIR isoprene-butadiene copolymers
- SIR isoprene-styrene copolymers
- SBIR isoprene-butadiene-styrene copolymers
- the invention particularly relates to a tire tread, whether it is a new or used tire (in the case of retreading).
- component A is for example an SBR, whether it is an SBR prepared in emulsion ("ESBR") or an SBR prepared in solution (“SSBR” ), a cut (mix) SBR BR, SBR / NR (or SBR / IR), or even BR / NR (or BR / IR).
- SBR elastomer in particular an SBR is used having a styrene content of between 20% and 30% by weight, a vinyl bond content of the butadiene part of between 15% and 65%, a bond content trans-1,4 between 15%> and 75% and a Tg between -20 ° C and -55 ° C.
- Such an SBR copolymer, preferably an SSBR is optionally used in admixture with a polybutadiene (BR) preferably having more than 90% of cis-1,4 bonds.
- BR polybutadiene
- component A is in particular an isoprene elastomer; by “isoprene elastomer” is understood in known manner an isoprene homopolymer or copolymer, in other words a diene elastomer chosen from the group consisting of natural rubber (NR), synthetic polyisoprenes (IR), different isoprene copolymers or a mixture of these elastomers.
- isoprene elastomer is understood in known manner an isoprene homopolymer or copolymer, in other words a diene elastomer chosen from the group consisting of natural rubber (NR), synthetic polyisoprenes (IR), different isoprene copolymers or a mixture of these elastomers.
- isoprene copolymers examples include isobutene-isoprene (butyl rubber - IIR), isoprene-styrene (SIR), isoprene-butadiene (BIR) or isoprene-butadiene-styrene copolymers (SBIR).
- This isoprene elastomer is preferably natural rubber or a synthetic cis-1,4 polyisoprene; among these synthetic polyisoprenes, polyisoprenes are preferably used having a rate (mol%) of cis-1,4 bonds greater than 90%, more preferably still greater than 98%.
- the component A can also consist, in whole or in part, of another highly unsaturated elastomer such as, for example, an SBR elastomer.
- At least one essentially saturated diene elastomer is used, in particular at least one EPDM copolymer, whether this copolymer is used for example or not in admixture with one or more of the highly unsaturated diene elastomers mentioned above.
- the white or inorganic filler used as reinforcing filler can constitute all or only part of the total reinforcing filler, in the latter case associated for example with carbon black.
- the reinforcing inorganic filler constitutes the majority, that is to say more than 50% by weight of the total reinforcing filler, more preferably more than 80% by weight of this total reinforcing filler.
- the term "reinforcing inorganic filler” means, in a known manner, an inorganic or mineral filler, whatever its color and its origin (natural or synthetic), also called “white” filler or sometimes “clear” filler "In contrast to carbon black, this inorganic filler being capable of reinforcing on its own, without other means than an intermediate coupling agent, a rubber composition intended for the manufacture of tires, in other words capable of replacing, in its reinforcing function, a conventional charge of pneumatic grade carbon black.
- the reinforcing inorganic filler is an inorganic filler of the silica (SiO2) or alumina (AI2O3) type, or a mixture of these two fillers.
- the silica used can be any reinforcing silica known to those skilled in the art, in particular any precipitated or pyrogenic silica having a BET surface as well as a CTAB specific surface, both less than 450 m 2 / g, preferably from 30 to 400 m 2 / g.
- Highly dispersible precipitated silicas (called "HDS") are preferred, in particular when the invention is implemented for the manufacture of tires having a low rolling resistance; the term “highly dispersible silica” is understood to mean, in known manner, any silica having a significant ability to disaggregate and to disperse in an elastomeric matrix, observable in known manner by electron or optical microscopy, on fine sections.
- Nonlimiting examples of such preferential highly dispersible silicas mention may be made of Perkasil KS 430 silica from Akzo, BV3380 silica from Degussa, Zeosil 1165 MP and 1115 MP silica from Rhodia, Hi-Silica 2000 from the company PPG, the silicas Zeopol 8741 or 8745 from the company Huber, treated precipitated silicas such as for example the silicas "doped" with aluminum described in application EP-A-735 088.
- the reinforcing alumina preferably used is a highly dispersible alumina having a BET surface area ranging from 30 to 400 m 2 / g, more preferably between 60 and 250 m 2 / g, an average particle size at most equal to 500 nm, more preferably at most equal to 200 nm, as described in the above-mentioned application EP-A-810 258.
- BET surface area ranging from 30 to 400 m 2 / g, more preferably between 60 and 250 m 2 / g, an average particle size at most equal to 500 nm, more preferably at most equal to 200 nm, as described in the above-mentioned application EP-A-810 258.
- Such reinforcing aluminas mention may in particular be made of aluminas A125, CR125, D65CR from the company Baikowski.
- reinforcing inorganic filler is also understood to mean mixtures of different fillers reinforcing inorganics, in particular highly dispersible silicas and / or aluminas as described above.
- the reinforcing inorganic filler used in particular in the case of silica, preferably has a BET surface area of between 60 and 250 m 2 / g.
- An advantageous embodiment of the invention consists in using a reinforcing inorganic filler, in particular a silica, having a high BET specific surface, lying in a range of 130 to 230 m 2 / g, due to the recognized high reinforcing power of such charges.
- the reinforcing inorganic filler can also be used in cutting (mixing) with carbon black.
- carbon blacks all carbon blacks are suitable, in particular blacks of the HAF, ISAF, SAF type, conventionally used in tires and in particular in tire treads, such as, for example, carbon blacks of series 100 to 300. ; by way of nonlimiting examples of such blacks, mention may be made of blacks NI 15, N134, N234, N330, N339, N347, N375.
- the quantity of carbon black present in the total reinforcing filler can vary within wide limits, this quantity of carbon black, however, being preferably less than the quantity of inorganic reinforcing filler present in the rubber composition.
- a carbon black in combination with the reinforcing inorganic filler at a preferential rate of between 2 and 20 phr, more preferably included in a field. from 5 to 15 phr (parts by weight percent of elastomer).
- a preferential rate of between 2 and 20 phr more preferably included in a field. from 5 to 15 phr (parts by weight percent of elastomer).
- the rate of total reinforcing filler is between 10 and 200 phr, more preferably between 20 and 150 phr, the optimum being different according to the targeted applications; in fact, the level of reinforcement expected on a bicycle tire, for example, is in known manner significantly lower than that required on a tire capable of traveling at high speed in a sustained manner, for example a motorcycle tire, a tire for a passenger vehicle or for a utility vehicle such as Truck.
- the quantity of reinforcing inorganic filler is preferably between 30 and 140 phr, more preferably within a range of 50 to 120 pce.
- the BET specific surface area (“mass area”) is determined by gas adsorption using the Brunauer-Emmett-Teller method described in "7Jze Journal of the American Chemical Society” Vol. 60, page 309, February 1938), more precisely according to the French standard NF ISO 9277 of December 1996 [multi-point volumetric method (5 points) - gas: nitrogen - degassing: hour at 160 ° C - relative pressure range p / in: 0.05 to 0.17],
- the CTAB specific surface is the external surface determined according to French standard NF T 45-007 of November 1987 (method B).
- a reinforcing organic filler in particular a carbon black
- an inorganic layer for example silica, requiring the use of a coupling agent to establish the connection with the elastomer (see for example WO 96/37547, WO 97/42256, WO 98/42778, WO 99/28391 ).
- alkoxysilane (component C) used in the rubber, tire and tread compositions in accordance with the invention therefore corresponds to the above general formula (I):
- R 1 identical or different, each represent a hydrocarbon-monovalent group chosen from alkyl, linear or branched, having from 1 to 4 carbon atoms and alkoxyalkyls, linear or branched, having from 2 to 8 carbon atoms;
- R and R identical or different, each represent a monovalent hydrocarbon group chosen from alkyl, linear or branched, having from 1 to 6 carbon atoms and the phenyl radical; x is an integer or fractional number between 3 and 5.
- function "X” a functional group tetrasulfide (S x ) capable of forming a stable bond with the diene elastomer; on the other hand, as a "Y” function, one and only one alkoxyl group (-OR 1 ) per silicon atom - so-called alkoxysilyl function ( ⁇ Si-OR 1 ) - allowing it to be grafted onto the reinforcing inorganic charge through its surface hydroxyl groups; the two propylene chains providing the link between the tetrasulfide group at the center of the molecule and the two alkoxysilyl functions attached to each end of the molecule.
- X a functional group tetrasulfide
- Si-OR 1 alkoxysilyl function
- R 1 are chosen from methyl, ethyl, n-propyl, isopropyl, n-butyl, CH3OCH2-, CH 3 OCH 2 CH 2 - and CH 3 OCH (CH 3 ) CH 2 -;
- R 2 and R 3 are chosen from methyl, ethyl, n-propyl, isopropyl, n-butyl, n-hexyl and phenyl;
- R 1 are chosen from methyl, ethyl, n-propyl and isopropyl.
- R 2 and R 3 are methyl groups.
- tetrasulfide means tetrasulfide S proper as well as any mixture of polysulfides S x (typically from S to S 8 ) whose average number of atoms of S (denoted x), by alkoxysilane molecule, is between 3 and 5, preferably in a range from 3.5 to 4.5, this average value being measured according to the method recommended in paragraph 1-1.A), with precision (deviation- type) of the order of ⁇ 0.1.
- x means comprised between 3 and 5, preferably in a range from 3.5 to 4.5
- a value of x mean comprised between 3 ⁇ 0.1 and 5 ⁇ 0 , 1, preferably in a range of 3.5 ⁇ 0.1 to 4.5 ⁇ 0.1.
- tetrasulfide for which x is included in a range from 3.5 ( ⁇ 0.1) to 4.5 ( ⁇ 0.1), more preferably still from 3.8 ( ⁇ 0.1) to 4.2 ( ⁇ 0.1), that is to say substantially equal to 4.
- tetrasulphurized monoalkoxysilanes corresponding to formula (I) which are specially used in the context of the present invention are those of specific formulas (II), (III) or (IV) below:
- x has the general definition (x means comprised between 3 and 5), and in particular the preferential definitions given above (that is to say x means comprised in a range from 3.5 to 4.5, more preferably still in a range of 3.8 to 4.2).
- the best known embodiment corresponds to the compound of formula (III) above. It is monoethoxydimethylsilylpropyl tetrasulfide (abbreviated as MESPT), of formula [(C 2 H 5 O) (CH 3 ) 2 Si (CH 2 ) S 2 ] 2 , monoethoxylated homolog of the above-mentioned TESPT.
- MESPT monoethoxydimethylsilylpropyl tetrasulfide
- x is preferably within a range of 3.5 to 4.5, more preferably still within a range of 3.8 to 4.2.
- component C A person skilled in the art will be able to adjust this content of component C according to the intended application, in particular the part of the tire which incorporates the rubber composition, the nature of the diene elastomer and the amount of reinforcing inorganic filler used. .
- component C it is preferable to determine the optimal level of coupling agent (component C) in moles per square meter of reinforcing inorganic filler, for each reinforcing inorganic filler used; this optimum amount is calculated 'from the weight ratio [coupling agent / reinforcing inorganic filler], the BET surface of the charge and the molecular weight of the coupling agent (denoted H below), according to the relation following known:
- the amount of coupling agent used in the compositions according to the invention is between 10 " 7 and 10" 5 moles per m 2 of reinforcing inorganic filler. Even more preferably, the amount of coupling agent is between 5.10 " 7 and 5.10" 6 moles per m 2 of total inorganic filler.
- the content of component C is preferably greater than 1 phr, more preferably between 2 and 20 phr. Below the minimums indicated, the effect is likely to be insufficient, while beyond the recommended maximum there is generally no longer any improvement, while the costs of the composition increase; for these various reasons, this content of component C is more preferably still between 2 and 10 phr.
- this component C could be grafted beforehand on the reinforcing inorganic filler (via its alkoxysilyl function, in particular ethoxysilyl), the inorganic filler thus “precoupled” can then be linked to the diene elastomer by through the free tetrasulfide function.
- tetrasulfides (formulas I to IV) can be prepared according to various synthetic methods, most of which are known apart from the starting reagents, among which the preferred methods A, B, C and D described below.
- the compounds of formula (I), in particular (II), (III) or (IV) can be obtained by direct reaction of a halogenated monoalkoxysilane of formula (V) with an anhydrous metallic polysulfide of formula (VI), by operating at a temperature ranging from -20 ° C to 90 ° C, in the presence optionally an inert polar (or non-polar) organic solvent, by applying the following synthesis scheme:
- the halogenated silanes of formula (V) are commercial products or products easily prepared from commercial products.
- the metal polysulfides of formula (VI) can be prepared, for example, by reaction of an alkali sulfide MS, containing water of crystallization, with elemental sulfur operating at a temperature ranging from 60 ° C to 300 ° C , under vacuum and in the absence of an organic solvent.
- M ' represents an alkali metal, preferably lithium, sodium or potassium, and R represents an alkyl, linear or branched, having from 1 to 4 carbon atoms, preferably ethyl; then (b) a mixture based on elemental sulfur and halogenated monoalkoxysilane of formula (V) defined above in method A is reacted with the reaction product of step (a), operating at a temperature ranging from 25 ° C at the reflux temperature of the reaction medium.
- step (d) reacting the halogenated silane of formula (V) defined above in method A with the reaction product of step (c), operating under autogenous pressure at a temperature ranging from 0 ° C. to 175 ° C, optionally in the presence of an inert polar (or non-polar) organic solvent,
- x ' is a whole or fractional number, between 2 and 4, and preferably in a range from 2.5 to 3.5.
- step (c) the compound of formula (VIII) (NH) 2 S (X '+ i ) or (IX) (amine) is formed in situ. 2 S (X ' + i ) which is in fact the active principle which will give rise, by reaction with the halogenated silane of formula (V), to the polysulphurized monoalkoxysilane of formula (I).
- step (f) the halogenated silane of formula (V) defined above in method A is reacted with the reaction product of step (e), operating at a temperature ranging from 40 ° C to 100 ° C, optionally under autogenous pressure, optionally in the presence of an inert polar (or non-polar) organic solvent;
- step (e) the compound of formula (X) M ' 2 S (X > +1) is formed in situ which is in fact the active principle which will give rise, by reaction with the halogenated silane of formula (V), to the polysulphurized monoalkoxysilane of formula (I).
- the abovementioned step (e) is carried out by preparing the mixture (metallic alkoxide + sulfur + H 2 S) at a temperature ranging from 20 ° C to 25 ° C, then by heating mixing at a temperature ranging from 50 ° C to 80 ° C for a period of time ranging from 30 minutes to 2 hours, so as to complete the formation of the compound of formula (X); then, the reaction medium is cooled to a temperature ranging from 15 ° C to 25 ° C before starting the procedure of step (f).
- halogenated silane (V) there must be at least two moles of halogenated silane (V) per mole of HS and at least two moles of S per mole of H S.
- alkoxysilanes synthesized according to the methods A to D previously described are in fact mixtures of polysulphides (typically S to S 8 ), with consequently an average value of the x which is generally different from the value whole 4.
- alkoxysilanes of formula (I), in particular MESPT of formula (III) the mean x of which is between 3 ( ⁇ 0.1) and 5 ( ⁇ 0.1), preferably within a range of 3.5 ( ⁇ 0.1) to 4.5 ( ⁇ 0.1).
- the molar level of (S + S 4 ) is preferably greater than 40% (i.e. a rate of S + S x ⁇ 5 less than 60%), more preferably greater than 50%> (i.e. a rate of S 2 + S ⁇ > 5 less than 50%), that is to say that in the latter case the polysulphides S 3 and S 4 represent the majority of the polysulfides S x (in mol%).
- the molar level of S 2 is preferably less than 30%, more preferably less than 20%>. All these limit values are given to the nearest NMR measurement accuracy, with an absolute error of approximately ⁇ 1.5 (for example 20 ⁇ 1.5% for the last rate indicated).
- the elastomeric compositions also comprise all or part of the usual additives for diene rubber compositions intended for the manufacture of tires or tire treads, such as for example extension oils, plasticizers, protective agents such as anti-ozone waxes, chemical anti-ozonants, antioxidants, anti-fatigue agents, adhesion promoters, coupling activators as described for example in applications WO00 / 05300 and WO00 / 05301 mentioned above, reinforcing resins as described in WO02 / 10269, a crosslinking system based either on sulfur or on sulfur donors and / or peroxide and / or bismaleimides, vulcanization accelerators, vulcanization activators , etc.
- the reinforcing inorganic filler can also be associated, if necessary, with a conventional white filler with little or no reinforcing, for example particles of clays, bentonite, talc, chalk, kaolin, etc.
- the elastomeric compositions can also contain, in addition to the coupling agents (components C) described above, agents for covering the reinforcing inorganic filler, comprising for example the only function Y, or more generally processing aid agents which, in known manner, can improve their processing ability by improving the dispersion of the inorganic filler in the rubber matrix and by lowering the viscosity of the compositions.
- these agents being for example alkylalkoxysilanes, in particular alkyltriethoxysilanes, such as for example 1-octyl-triethoxysilane marketed by the company Degussa-H ⁇ ls under the name Dynasylan Octeo or 1-hexa-decyl-triethoxysilane marketed by the company Degussa-H persistls under the name Si216, polyols, polyethers (for example polyethylene glycols), primary, secondary or tertiary amines (for example trialcanol-amines), hydroxylated or hydrolyzable polyorganosiloxanes, for example ⁇ , ⁇ -dihydroxy-polyorganosiloxanes (in particular ⁇ , ⁇ -dihydroxy-polydimethylsiloxanes).
- alkylalkoxysilanes in particular alkyltriethoxysilanes, such as for example 1-octyl-tri
- compositions are produced in suitable mixers, using two successive preparation phases well known to those skilled in the art: a first working or thermo-mechanical kneading phase (sometimes called a "non-productive" phase) at high temperature, up to a maximum temperature (noted T max ) of between 110 ° C and 190 ° C, preferably between 130 ° C and 180 ° C, followed by a second phase of mechanical work (sometimes referred to as the "productive" phase) at a lower temperature, typically less than 110 ° C, for example between 40 ° C and 100 ° C, finishing phase during which the crosslinking or vulcanization system is incorporated; such phases have been described for example in applications EP-A-501,227, EP-A-735,088, EP-A-810,258, WO00 / 05300, WO00 / 05301 or WO02 / 10269 mentioned above.
- a first working or thermo-mechanical kneading phase (sometimes called a "non-productive" phase
- the process for manufacturing the compositions according to the invention is characterized in that at least the reinforcing inorganic filler (component B) and the coupling agent (component C) are incorporated by kneading with the diene elastomer (component A) in the during the first so-called non-productive phase, that is to say that one introduces into the mixer and that one thermomechanically kneads, in one or more stages, at least these different basic constituents until reaching a maximum temperature between 110 ° C and 190 ° C, preferably between 130 ° C and 180 ° C.
- the first (non-productive) phase is carried out in a single thermomechanical step during which all the necessary basic components are introduced into a suitable mixer such as a conventional internal mixer.
- thermomechanical working step can be added to this internal mixer, after the mixture has fallen and intermediate cooling (cooling temperature preferably below
- compositions 100 ° C
- a complementary thermomechanical treatment in particular to further improve the dispersion, in the elastomeric matrix, of the reinforcing inorganic filler and of its coupling agent.
- the duration total mixing, in this non-productive phase is preferably between 2 and 10 minutes.
- the vulcanization system is then incorporated at low temperature, generally in an external mixer such as a cylinder mixer; the whole is then mixed (productive phase) for a few minutes, for example between 5 and 15 minutes.
- the final composition thus obtained is then calendered, for example in the form of plates (thickness of 2 to 3 mm) or of thin sheets of rubber for the measurement of its physical or mechanical properties, in particular for characterization in the laboratory, or further extradited to form rubber profiles used directly, after cutting or assembling to the desired dimensions, as a semi-finished product for tires, in particular as treads, crown reinforcement plies, sidewalls, radial carcass reinforcement plies, heels or protectors.
- the process according to the invention for preparing an elastomeric composition vulcanizable with sulfur based on a reinforcing inorganic filler and intended for the manufacture of tires or tire treads, said composition having an accelerated vulcanization kinetics includes the following steps:
- a reinforcing inorganic filler a bis-alkoxysilane tetrasulfide as coupling agent (inorganic filler / diene elastomer), by thermomechanically kneading the whole, in one or more stages, until reaching a maximum temperature of between 110 ° C and 190 ° C; •. cool the assembly to a temperature below 100 ° C; then incorporate a vulcanization system; • knead everything up to a maximum temperature below 110 ° C., and it is characterized in that said bis-alkoxysilane tetrasulfide corresponds to the above formula (I).
- the process according to the invention for preparing a tire or a tire tread with accelerated vulcanization kinetics, incorporating the elastomeric composition obtained by the above process, therefore comprises as an additional step that consisting of calendering or extruding this composition in the form of a tire tread or a rubber profile incorporated as a semi-finished product into the tire concerned.
- the vulcanization (or baking) of the tire or of the tread is carried out in a known manner at a temperature preferably between 130 ° C. and 200 ° C., under pressure, for a sufficient time which can vary for example between 5 and 90 min depending in particular on the baking temperature, the vulcanization system adopted and the vulcanization kinetics of the composition considered.
- the crosslinking system proper is preferably based on sulfur and a primary vulcanization accelerator, in particular an accelerator of the sulfenamide type.
- vulcanization activators such as zinc oxide, stearic acid, guanidine derivatives (especially diphenylguanidine), etc.
- Sulfur is used at a preferential rate of between 0.5 and 10 phr, more preferably of between 0.5 and 5.0 phr, for example between 0.5 and 3.0 phr when the invention is applied to a strip. tire bearing.
- the primary vulcanization accelerator is used at a preferential rate of between 0.5 and 10 phr, more preferably between 0.5 and 5.0 phr in particular when the invention applies to a tire tread.
- the invention relates to the compositions, tires and treads previously described both in the so-called “raw” state (ie, before baking) and in the so-called “cooked” or vulcanized state (ie, after crosslinking or vulcanization).
- This example describes the preparation of bis-monoethoxydimethylsilylpropyl tetrasulfide (abbreviated MESPT) of formula (III) by implementing the synthesis method D described above.
- MESPT bis-monoethoxydimethylsilylpropyl tetrasulfide
- the whole is placed under stirring (200-300 rpm). A mass of 65 g of sulfur (2.031 moles, or the equivalent of 3 moles for one mole of HS) is then added. After purging the argon circuits, the H 2 S (23 g, or 0.676 mole) is introduced by bubbling by means of a dip tube, ie for 45 to 60 minutes. The solution changes from an orange color with yellow-orange particles to a dark brown color without particles.
- the mixture is heated at 60 ° C for 1 hour so as to complete the conversion to anhydrous Na S 4 .
- the reaction medium changes from a dark brown color to a red-brown color with brown particles.
- the reaction medium is then cooled using refrigeration means (to 10-15 ° C) to reach a temperature close to 20 ° C.
- a mass of 244 g of ⁇ -chloropropylethoxydimethylsilane (1.352 moles, equivalent to 2 moles for one mole of H 2 S) is added using a peristaltic pump (10 ml / min) over 30 minutes.
- the reaction medium is then heated to 75 ⁇ 2 ° C for 4 h. During the test, the NaCl precipitates. After 4 hours of heating, the medium is cooled to room temperature (20-25 ° C). It takes an orange color with yellow particles.
- a mass of 280 g of bis-monoethoxydimethylsilylpropyl tetrasulphide (0.669 mole) is then obtained in the form of an yellow-orange oil.
- NMR- 29 Si 16.3 ppm (s, Me 2 (OEt) Si,) • NMR- 1 H: 0.0 to 0.1 ppm (several s, Si (CH 3 ) 2 , 12H), 0.66 ppm (m, SiCH 2 , 4H), 1.13 ppm (t, CH 3 CH 2 0, 6H), 1.75 ppm (m, SiCH 2 CH 2 , 4H), 2.64 ppm (t, CH 2 S 2 ), 2.8 to 3.0 ppm (several t, CH 2 S X ⁇ 3 ), 3.61 ppm (q, CH 2 0, 4H).
- the molar level of (S 3 + S) is greater than 50%, the polysulfides S 3 and S thus representing the majority of the polysulfides S x . Furthermore, the level of S 2 is advantageously less than 20%.
- This example describes the preparation of bis-monoethoxydimethylsilylpropyl disulfide (abbreviated MESPD) using also the preceding synthesis method D.
- MESPD bis-monoethoxydimethylsilylpropyl disulfide
- the mixture Under a stream of argon, the mixture is heated at 60 ° C for 1 hour so as to complete the conversion to anhydrous Na 2 S 2 . A yellow precipitate appears.
- the reaction medium is then cooled using refrigeration means (to 10-15 ° C) to reach a temperature close to 20 ° C.
- a mass of 754.4 g of ⁇ -chloropropylethoxydimethylsilane (4.18 moles, equivalent to 2 moles for one mole of H S) is added using a peristaltic pump (10 ml / min) over 30 minutes.
- the reaction medium is then heated to 70 ° C for 4 h. During the test, the NaCl precipitates. After 4 hours of heating, the medium is cooled to room temperature (20-25 ° C). It takes on a green color with yellow particles.
- NMR- 13 C -1.8 to -2.5 ppm (several CH 3 Si), 15.1 ppm (CH 2 Si), 18.5 ppm (CH 3 CH 2 0), 22.8 to 23.2 ppm (several SiCH 2 CH 2 ), 42.4 ppm (CH 2 S 2 ), 42.1 ppm (CH 2 S 3 ), 58.2 ppm (OCH 2 CH 3 ).
- a diene elastomer (or mixture of diene elastomers) is introduced into an internal mixer, filled to 70% and whose initial tank temperature is approximately 60 ° C. , if applicable), the reinforcing filler, the coupling agent, then, after one to two minutes of kneading, the various other ingredients with the exception of the vulcanization system.
- Thermomechanical work (non-productive phase) is then carried out in one or two stages (total duration of mixing equal for example to about 7 min), until a maximum "falling" temperature of around 160-165 ° C. is reached. .
- the mixture thus obtained is recovered, cooled, then the vulcanization system (sulfur and primary sulfenamide accelerator) is added on an external mixer (homo-finisher) at 30 ° C, mixing everything (productive phase) for example for 3 10 minutes.
- compositions thus obtained are then either calendered in the form of plates (thickness of 2 to 3 mm) for the measurement of their physical or mechanical properties, or directly extruded in the form of tire treads.
- the purpose of this test is to demonstrate the improved performance of an elastomeric composition based on MESPT, compared to a control composition using TESPT.
- compositions based on diene elastomers (SSBR and BR blend) reinforced with silica are prepared for this, denoted C-1 and C-2.
- the two compositions are prepared in a mixer of sufficient size to allow the manufacture of treads and real rolling tests of tires comprising these treads.
- composition C-1 TESPT (control); - composition C-2: MESPT (synthesized according to paragraph III- 1.A).
- the two alkoxysilanes are used at a rate of less than 8 phr, this amount representing less than 10% by weight relative to the amount of reinforcing inorganic filler.
- the coupling agent content in the C-2 composition is about 9.10 "7 moles per square meter of inorganic filler (silica). It is recalled that the TESPT, a witness of choice since constituting the reference coupling agent for "Green Tires" (low rolling resistance), has the developed formula (x close to 4):
- Tables 1 and 2 give the formulation of the two compositions (Table 1 - rate of the various products expressed in pce), their properties before and after cooking (30 min at 150 ° C); the vulcanization system consists of sulfur and sulfenamide.
- Figure 1 attached reproduces the module curves (in MPa) as a function of the elongation (in%>); these curves are denoted Cl and C2 and correspond respectively to compositions C-1 and C-2.
- composition C-2 compared with control Cl, presents Shore hardness values on the one hand, of modules under strong deformation (MA100, MA300) and report (M300 / M100) on the other hand, which are clearly superior, as many clear indicators for those skilled in the art of improved reinforcement;
- Figure 1 confirms well the previous observations: curve C2 located above the curve C1, in particular for large elongations (100%) and more), which is representative of
- the baking of the composition according to the invention can be carried out in a significantly shorter time, without penalizing, on the contrary by here favoring the initial implementation step thanks to a reduced plasticity , a longer induction time and increased safety at roasting (T5).
- compositions Cl and C-2 described above are used in this test as treads for passenger car tires with radial carcass, of dimension 175/70 RI 4 (speed index T), conventionally manufactured and in all points identical except the composition of rubber constituting the tread: composition Cl for the control tires (denoted Pl) and composition C-2 for the tires of the invention (denoted P-2).
- the tires thus prepared are subjected to running on the road, on a passenger vehicle of the Citro ⁇ n Xsara brand, in order to determine the resistance to wear.
- the wear resistance of the rubber composition is directly correlated to the level of reinforcement provided by the reinforcing filler and its associated coupling agent, ie that is to say the quality of coupling (filler / elastomer) obtained.
- the measurement of the resistance to wear is an excellent indicator, if not the best since evaluated on the final manufactured product, of the performance of the coupling agent used.
- the tire according to the invention shows a performance in wear resistance at least identical if not slightly higher (gain observed of about 2%) than that of the control tire.
- TESPD triethoxysilylpropyl disulfide
- MESPD monoethoxydimethylsilylpropyl disulfide
- the first disulfide (TESPD), of formula [(C 2 H 5 O) 3 Si (CH 2 ) 3 S] 2 is well known; it is marketed by the company Degussa under the names Si266 or Si75 (in the second case, in the form of a mixture of disulfide (at 75% by weight) and polysulfides), or also by the company Osi Specialties under the name Silquest Al 589.
- the TESPD sold by the company Degussa under the name "Si75” is used in this test (x mean equal to 2.35 according to the supplier's technical sheet).
- the second disulfide (MESPD), of formula [(C 2 H 5 O) (CH 3 ) 2 Si (CH 2 ) 3 S] 2 was described in patent application EP-A-1 043 357 and exemplified in rubber compositions intended for the manufacture of tires.
- the MESPD is presented as a potential substitute for the TESPD, usable without degradation of the mechanical properties (and therefore of the level of reinforcement), advantageous from the point of view of the environment due to a number of reduced ethoxy functions ( per silicon atom, only one instead of three) and consequently a lesser release of ethanol during the use of rubber compositions (known problem of VOCs - "Volatile Organic Compounds").
- this MESPD has the structural formula (x close to 2):
- TESPD and MESPD are on the one hand very close to the other, on the other hand close to that of the MESPT of formula (III), the latter not differentiating in particular of MESPD only by the presence of a tetrasulfide group S in place of the disulfide group S 2 .
- compositions are prepared for this test based on diene elastomers (SSBR and BR blend) reinforced with silica, denoted C-3 to C-5, these three compositions being intended for treads for passenger car tires. These three compositions are identical, except for the coupling agent used: composition C-3: MESPT (invention); composition C-4: TESPD (control); composition C-5: MESPD (control).
- the three alkoxysilanes are used at a rate that is substantially isomolar in silicon, their rate below 6 phr advantageously representing less than 8% by weight relative to the amount of reinforcing inorganic filler.
- MESPT rate in the C-3 composition is about 9.10 "7 moles per square meter of inorganic filler (silica).
- Tables 4 and 5 give the formulation of the three compositions (Table 4 - rate of the various products expressed in pce), their properties before and after cooking (30 min at 150 ° C); the vulcanization system consists of sulfur and sulfenamide.
- the attached FIG. 2 reproduces the modulus curves as a function of the elongation, these curves being denoted C3 to C5 and corresponding respectively to the compositions C-3 to C-5.
- composition according to the invention C-3 based on MESPT, has the best compromise in properties compared to the two control compositions C-4 and C-5, both before and after cooking, with: a viscosity in the raw state lower than that of composition C-4 (TESPD), substantially identical to that of composition C-5 (MESPD); a significantly lower time T5, in particular compared to the composition C-5
- curves of FIG. 2 appended clearly confirm, if need be, the superiority of the composition according to the invention: curve C3 situated well above curves C4 and C5 for large elongations (100% and more), all the more the more that the elongation increases, which is representative in a known manner of a higher reinforcement, and therefore of a higher ability of the composition C-3 to resist wear.
- the coupling agent MESPT the superiority of which has already been demonstrated compared with the control TESPT (tests 1 and 2 above), appears here to be very clearly superior to the two other ethoxysilanes polysulfides (disulfides) tested here, namely TESPD and MESPD.
- composition C-6 MESPT (invention); composition C-7: MESPD (control).
- the two monoethoxysilanes are used at a rate of less than 3 phr (substantially isomolar silicon rate), this amount representing less than 8% by weight relative to the amount of reinforcing inorganic filler.
- MESPT rate in the C-6 composition is about 9.10 "7 moles per square meter of inorganic filler.
- Tables 6 and 7 give the formulation of the two compositions and their properties after cooking (30 min at 150 ° C).
- compositions tested As for the vulcanization kinetics of the compositions tested, it was found in this test that they covered in both cases, due to a known accelerating effect of carbon black, values identical to those usually observed on conventional compositions loaded exclusively with carbon black (constant K in a range of approximately 0.45 to 0.55 min "1 ), of course with” equivalent "rubber formulation (that is to say typical of a strip passenger tire rolling); however, the composition C-6 according to the invention still showed a superiority compared to the control composition C-7.
- compositions C-8 TESPT (control); composition C-9: MESPT (invention).
- MESPT is synthesized according to the indications in paragraph III-l .A) but in greater quantity.
- the levels of the various constituents used, in particular elastomer, reinforcing inorganic filler and coupling agent are the same as for test 1 above.
- Tables 8 and 9 give the formulation of the two compositions, their properties before and after cooking (30 min at 150 ° C).
- composition according to the invention can be cooked in a significantly shorter time, without penalizing, or even improving the performance of reinforcement and hysteresis.
- compositions C-8 and C-9 are used in this test as treads for passenger car tires with radial carcass, of size 195/65 RI 5 (speed index H), conventionally manufactured and in all respects identical except for the composition of rubber constituting the tread: composition C-8 for the control tires (denoted P-8), composition C-9 for the tires of the invention (denoted P-9).
- the tires are first tested on a machine to determine their rolling resistance and their drift thrust, then mounted on the vehicle for further testing.
- composition C-9 of the invention compared with the control composition C-8, exhibits improved curing properties while offering the tires a compromise in rolling properties which is also overall improved. This largely confirms the results of the previous test 2.
- composition C-10 TESPT (control); - Composition C-1 1: MESPT (invention).
- Tables 1 1 and 12 give the formulation of the two compositions, their properties before and after cooking (30 min at 150 ° C.).
- compositions C-10 and C-11 are then tested as treads for passenger car tires with radial carcass, conventionally manufactured and in all respects identical except for the rubber composition constituting the tread: composition C-10 for the control tires (denoted P-10), composition C-11 for the tires of the invention (denoted P-1 1).
- composition C-12 MESPT (invention); - composition C-l 3: MESPD (control).
- Tables 14 and 15 give the formulation of the two compositions and their properties after cooking (30 min at 10 ° C.).
- Table 15 confirm, under industrial conditions, the superiority of monoethoxysilane tetrasulfide (MESPT) compared to monoethoxysilane disulfide (MESPD), with in particular: a significantly higher conversion rate constant K, a total vulcanization time (t o-tj ) reduced, a higher Bound rubber value; - after firing, Shore hardness, MAI 00, MA300 modules and a higher MA300 / MA100 ratio, but also improved hysteresis (PH and tan ( ⁇ ) max significantly lower, synonymous with improved rolling resistance).
- MESPT monoethoxysilane tetrasulfide
- MESPD monoethoxysilane disulfide
- This . test confirms the superiority of MESPT compared to the TESPT control, in two new rubber compositions, prepared according to industrial conditions as for tests 5 to 8 which precede. These compositions are characterized by the fact that they are reinforced with silica with a lower BET specific surface area (approximately 110 m 2 / g), compared with that of the previous tests.
- compositions C-14 TESPT (control); composition Cl 5: MESPT (invention).
- Tables 16 and 17 give the formulation of the two compositions and their properties after cooking (30 min at 150 ° C).
- compositions C-16 TESPT (control); composition C-7: MESPT (invention).
- Tables 18 and 19 give the formulation of the two compositions and their properties after cooking (30 min at 150 ° C).
- the results of Table 19 confirm once again, in the presence of a diene elastomer of a different nature, the superiority of the coupling agent monoethoxysilane, compared with the reference coupling agent triethoxysilane, with in particular: - a speed constant higher K conversion; a maximum torque reached in a shorter time (see t 0 ), a total vulcanization time (t 9 o-tj) reduced; higher Shore hardness; MA 100 and MA300 modules higher; - improved hysteresis (lower PH and tan ( ⁇ ) max ).
- the invention finds particularly advantageous applications in "Green Tires” with low energy consumption and in their treads, having both a low hysteresis (low rolling resistance), a high resistance to wear, as well as high grip properties on wet, snowy or icy ground, in particular when these tires and treads are intended for passenger vehicles, motorcycles or industrial vehicles of the heavy goods vehicle type.
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Abstract
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Priority Applications (8)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
EP02735225A EP1392769B1 (fr) | 2001-04-10 | 2002-04-05 | Pneumatique et bande de roulement comportant comme agent de couplage un tetrasulfure de bis-alkoxysilane |
JP2002582127A JP4065786B2 (ja) | 2001-04-10 | 2002-04-05 | カップリング剤としてビス‐アルコキシシランテトラスルフィドを含むタイヤおよびトレッド |
CA002443137A CA2443137A1 (fr) | 2001-04-10 | 2002-04-05 | Pneumatique et bande de roulement comportant comme agent de couplage un tetrasulfure de bis-alkoxysilane |
AT02735225T ATE542851T1 (de) | 2001-04-10 | 2002-04-05 | Reifen und laufflächenprofil welches als kupplungsmittel ein tetrasulfid-bis alkoxysilan enthält |
KR10-2003-7013364A KR20040012749A (ko) | 2001-04-10 | 2002-04-05 | 커플링제로서 비스-알콕시실란 테트라설파이드를 포함하는타이어 및 주행 트레드 |
MXPA03009193A MXPA03009193A (es) | 2001-04-10 | 2002-04-05 | NEUMaTICO Y BANDA DE RODADURA QUE COMPRENDE COMO AGENTE DE ACOPLAMIENTO TETRASULFURO DE BIS-ALCOXISILANO. |
BR0208413-9A BR0208413A (pt) | 2001-04-10 | 2002-04-05 | Pneumático, banda de rodagem de pneumático, processos para preparar um pneumático ou uma banda de rodagem de pneumático e uma composição elastomérica vulcanizável com enxofre, composição elastomérica vulcanizável com enxofre, e, utilização de uma composição |
US10/681,894 US7217751B2 (en) | 2001-04-10 | 2003-10-09 | Tire and tread comprising a bis-alkoxysilane tetrasulfide as coupling agent |
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
FR0105005 | 2001-04-10 | ||
FR0105005A FR2823215B1 (fr) | 2001-04-10 | 2001-04-10 | Pneumatique et bande de roulement de pneumatique comportant a titre d'agent de couplage un tetrasulfure de bis-alkoxysilane |
Related Child Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
US10/681,894 Continuation US7217751B2 (en) | 2001-04-10 | 2003-10-09 | Tire and tread comprising a bis-alkoxysilane tetrasulfide as coupling agent |
Publications (1)
Publication Number | Publication Date |
---|---|
WO2002083782A1 true WO2002083782A1 (fr) | 2002-10-24 |
Family
ID=8862257
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
PCT/EP2002/003774 WO2002083782A1 (fr) | 2001-04-10 | 2002-04-05 | Pneumatique et bande de roulement comportant comme agent de couplage un tetrasulfure de bis-alkoxysilane |
Country Status (11)
Country | Link |
---|---|
US (1) | US7217751B2 (fr) |
EP (1) | EP1392769B1 (fr) |
JP (1) | JP4065786B2 (fr) |
KR (1) | KR20040012749A (fr) |
CN (1) | CN1276014C (fr) |
AT (1) | ATE542851T1 (fr) |
CA (1) | CA2443137A1 (fr) |
FR (1) | FR2823215B1 (fr) |
MX (1) | MXPA03009193A (fr) |
RU (1) | RU2003132472A (fr) |
WO (1) | WO2002083782A1 (fr) |
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Also Published As
Publication number | Publication date |
---|---|
US7217751B2 (en) | 2007-05-15 |
CA2443137A1 (fr) | 2002-10-24 |
CN1501959A (zh) | 2004-06-02 |
MXPA03009193A (es) | 2004-02-17 |
FR2823215A1 (fr) | 2002-10-11 |
EP1392769B1 (fr) | 2012-01-25 |
EP1392769A1 (fr) | 2004-03-03 |
US20040132880A1 (en) | 2004-07-08 |
CN1276014C (zh) | 2006-09-20 |
FR2823215B1 (fr) | 2005-04-08 |
KR20040012749A (ko) | 2004-02-11 |
ATE542851T1 (de) | 2012-02-15 |
JP2004525230A (ja) | 2004-08-19 |
JP4065786B2 (ja) | 2008-03-26 |
RU2003132472A (ru) | 2005-03-27 |
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